//
// Copyright (c) 2009 Rutger ter Borg
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//

#ifndef BOOST_NUMERIC_BINDINGS_END_HPP
#define BOOST_NUMERIC_BINDINGS_END_HPP

#include <Core/Utils/numeric/bindings/begin.hpp>

namespace boost
{
    namespace numeric
    {
        namespace bindings
        {
            namespace detail
            {
                template <typename T, typename Tag>
                struct end_impl
                {
                };

                template <typename T>
                struct end_impl<T, tag::value>
                {
                    typedef typename bindings::value_type<T>::type* result_type;

                    static result_type invoke(T& t)
                    {
                        return adaptor_access<T>::end_value(t);
                    }
                };

                template <typename T, int N>
                struct end_impl<T, tag::addressing_index<N>>
                {
                    typedef tag::addressing_index<N> tag_type;

                    typedef linear_iterator<
                        typename bindings::value_type<T>::type,
                        typename result_of::stride<T, tag_type>::type
                    > result_type;

                    static result_type invoke(T& t)
                    {
                        return result_type(adaptor_access<T>::end_value(t), stride(t, tag_type()));
                    }
                };

                template <typename T>
                struct end_impl<T, tag::index_major>
                {
                    typedef typename detail::property_at<T, tag::index_type>::type* result_type;

                    static result_type invoke(T& t)
                    {
                        return adaptor_access<T>::end_index_major(t);
                    }
                };

                template <typename T>
                struct end_impl<T, tag::compressed_index_major>
                {
                    typedef typename detail::property_at<T, tag::index_type>::type* result_type;

                    static result_type invoke(T& t)
                    {
                        return adaptor_access<T>::end_compressed_index_major(t);
                    }
                };

                template <typename T>
                struct end_impl<T, tag::index_minor>
                {
                    typedef typename detail::property_at<T, tag::index_type>::type* result_type;

                    static result_type invoke(T& t)
                    {
                        return adaptor_access<T>::end_index_minor(t);
                    }
                };
            } // namespace detail

            namespace result_of
            {
                template <typename T, typename Tag = tag::addressing_index<1>>
                struct end
                {
                    BOOST_STATIC_ASSERT ( (is_tag<Tag>::value) );
                    typedef typename detail::end_impl<T, Tag>::result_type type;
                };
            } // namespace result_of

            //
            // Free Functions
            //

            //
            // Overloads like end( t, tag );
            //
            template <typename T, typename Tag>
            inline typename result_of::end<T, Tag>::type
            end(T& t, Tag)
            {
                return detail::end_impl<T, Tag>::invoke(t);
            }

            template <typename T, typename Tag>
            inline typename result_of::end<const T, Tag>::type
            end(const T& t, Tag)
            {
                return detail::end_impl<const T, Tag>::invoke(t);
            }

            // Overloads for types with rank <= 1 (scalars, vectors)
            // In theory, we could provide overloads for matrices here, too,
            // if their minimal_rank is at most 1.

            template <typename T>
            typename boost::enable_if<mpl::less<rank<T>, mpl::int_<2>>,
                                      typename result_of::end<T, tag::addressing_index<1>>::type>::type
            end(T& t)
            {
                return detail::end_impl<T, tag::addressing_index<1>>::invoke(t);
            }

            template <typename T>
            typename boost::enable_if<mpl::less<rank<T>, mpl::int_<2>>,
                                      typename result_of::end<const T>::type>::type
            end(const T& t)
            {
                return detail::end_impl<const T, tag::addressing_index<1>>::invoke(t);
            }

#define GENERATE_END_INDEX( z, which, unused ) \
GENERATE_FUNCTIONS( end, which, mpl::int_<which> )

            BOOST_PP_REPEAT_FROM_TO (
            1
            ,
            3
            ,
            GENERATE_END_INDEX
            ,
            ~
            )
            GENERATE_FUNCTIONS(end, _value, tag::value)
            GENERATE_FUNCTIONS(end, _row, tag::addressing_index < 1 >)
            GENERATE_FUNCTIONS(end, _column, tag::addressing_index < 2 >)

            GENERATE_FUNCTIONS(end, _index_major, tag::index_major)
            GENERATE_FUNCTIONS(end, _compressed_index_major, tag::compressed_index_major)
            GENERATE_FUNCTIONS(end, _index_minor, tag::index_minor)
        } // namespace bindings
    } // namespace numeric
} // namespace boost

#endif
